DE3213865A1 - Heat-insulated building - Google Patents

Abstract

Published without abstract.

Description

Prof. Heinz Broichhausen, Talstr. lo, 6761 Gerbach

Thermally insulated building

Io

The invention relates to a thermally insulated building, the outer walls of which at least partly consist of a supporting wall, one applied to the outside of this Insulation layer and an outer cover are built up, with a ventilation system for the interior is provided, which has air ducts for the fresh and exhaust air guided through the outer wall (according to Patent application P 30 39 107.2).

15 2o 25

According to patent application P 30 39 107.2, which does not yet belong to the state of the art, a heat-treated insulated buildings, a ventilation system is provided, in which the room air is constantly in accordance with the prescribed Renewed air exchange rates, with the heated Room air is used to heat the fresh supply air. For this purpose are in the outer wall of the Air ducts in the building are provided, which are used to supply fresh air and remove exhaust air. she are arranged between the inner supporting wall and the insulation layer.

Furthermore there are on the outside of the insulation layer

additional channels are provided in which a heat- Carrier fluid circulates, which absorbs the sun's heat hitting the outside of the building and should be used for interior wall heating. 5

The object on which the present invention is based consists in maintaining the basic idea the patent application P 30 39 107.2 to show further implementation possibilities.

According to the invention, this object is achieved in that the air ducts are guided through the insulating layer. The easiest way to do this is to shape the air ducts into the insulation layer. so that additional pipe material for the air ducts can be dispensed with. The insulation layer is included expediently composed of insulating layer panels, their wedge-shaped edge cuts interlock and thus promote alignment of the air ducts. The insulation panels should be used as Hard foam or mineral fiber boards with a thickness of 12 to 20 cm.

Alternatively - but also in combination - can be be seen that the air ducts are passed through the supporting wall. Here, too, they should be inserted into the supporting wall. be shaped in order to be able to dispense with additional pipe material. The stone or concrete elements should from which the supporting wall is formed, fitting sleeves are used for the mutual alignment of the molded air ducts be.

In a further embodiment it is provided that the outer cover is designed as an outer wall, the air ducts between the outer wall and the insulating layer

are led.

For heat recovery from the exhaust air, it is also proposed that the air ducts for the exhaust air to be connected on the output side to a storage tank connected to a heat pump.

If additional brine channels for supply and discharge a heat transfer fluid are provided in the cover of the insulation layer is according to the invention It is also proposed that the cover be designed as an outer wall made of stone or concrete elements that are provided with reinforcements to which the brine channels are attached. The cover can also consist of an exterior render on a mineral basis

or have one in which reinforcement is then inserted, to which the brine channels are attached. In both cases, the reinforcement is made of expanded metal

particularly advantageous.
2o

The cover can also be used as a metal facade The brine channels and / or the air channels are then attached to the rear wall thereof.

ORIGINAL INSPECTED

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FIG. 2 is a partial view of the building according to FIG. 1;

3 shows a horizontal section through the building in the area of the partial view according to FIG

Fig. 2;

4 shows a vertical section through an outer wall of a thermally insulated building and Io

5 shows a vertical section through the outer wall of a thermally insulated building.

The building part 1 shown schematically in Figures 1 to 3 has an outer wall 2 on the top Roof part 3 connects. On the inside, a ceiling 4 extends from the outer wall 2 and a floor 5 extends from the roof part 3 the end.

The outer wall 2 is composed of a supporting wall 6, an insulating layer 7 applied on the outside and in front the insulation layer 7 suspended concrete slabs 8, 9, Io. The concrete slabs 8, 9, Io are supported by brackets 11, 12, 13, 14 held on vertical concrete bars 15, 16 anchored in the foundation.

Brine pipes 17, 18 are cast in the concrete bars 15, 16. The feed pipe 17 in the view according to FIG FIG. 2 and the one shown on the right in section according to FIG. 3 Concrete bar 15 is for the supply of the brine to the concrete slabs 8, 9, Io and the left discharge brine pipe intended for the removal of the heated brine.

Inside the concrete slabs 8, 9, Io are not on here Brine pipes 19 fastened to visible expanded metal are cast, the guide of which comes from the middle concrete slab 9

can be seen. The brine pipe 19 is then connected to the supply brine via an elastic connecting pipe piece 2o. pipe 17 in the concrete bar 15 connected. The brine pipe 19 then runs spirally inward, so that the entire area of the concrete slab 9 is used. When flowing through the brine pipe 19, the brine is heated by the solar radiation acting on the concrete slab 9 and / or by the ambient heat.

The inner end of the brine pipe 19 is connected to the ab- Guide tube 18 connected. The brine arrives in this way from the concrete slab 9 in the concrete block 16, where it is led up in the exhaust pipe 18. In the remaining concrete slabs 8, Io the arrangement of brine- pipes and their connection with the supply and discharge pipe 17, 18 correspondingly released.

As can be seen in particular from FIG. 1, the discharge pipe 18 is led up into the attic to a collecting pipe. The heated brine can then be used for a variety of purposes, for example as a large-area interior wall heating, with the walls on the north side of the building preferably being selected. Also the utilization of the heat contained in the brine in heat pumps, heat exchangers ; E.g. for hot water production is possible.

What can not be seen from Figs. 1 to 3, is the fact that the system of brine heating with a Room air exchange system is combined, whereby it is invented According to this, this combination effect is particularly important. With the help of this room air exchange system the room air is constantly renewed according to the prescribed air exchange rates depending on the use of the room the heated room air through

appropriate heat exchangers or heat pumps are used to heat the room supply air '.

Ducts are provided in the outer wall for the air routing of this room air exchange system. The in 4, air ducts 23 run in an insulating layer 24 of the outer wall The support wall 26 consists of hollow blocks ,,. The air channels 23 can be molded in during the manufacture of the insulation panels, so that no additional Pipe material is required.

In the embodiment shown in FIG consists of the outer wall. 27 also consists of a supporting wall 28 and an insulating layer 29. Here are the air ducts 3o molded into the supporting wall 28.

It can also be used in lintels and other components of conventional residential construction during production Air ducts are molded in, which provide a seamless transition from the room to the supporting wall air duct or allow back.

-44.

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Claims (15)

Expectations: 1. Thermally insulated building, the outer walls of which at least partly consist of a supporting wall and one on the outside this applied insulation layer and an outer cover are built up, with a ventilation system for the interior, the air ducts for the fresh and exhaust air are provided through the outer wall has (according to patent application P 3o 39 Io7.2), characterized in that the air channels (23) through the insulation layer (24) are guided. 2. Building according to claim 1, characterized in that the air ducts (23) are inserted into the insulating layer (24) 2ο are shaped. 25th 3. Building according to claim 1 or 2, characterized in that the insulating layer (24) is composed of insulating laminated panels whose wedge-shaped edge cuts interlock with one another. Dresdner Bank AG Neuss 1OOS1O1 (BLZ 3OO BOQ OO) Postal check Essen SO62 43-433 CBLZ 3BO 1OQ 43) 4. Building according to one of claims 1 to 3, characterized characterized in that the insulating layer boards are made of rigid foam or mineral fiber boards in one thickness from 12 to 20 cm are formed. 5. Thermally insulated building, in particular according to one of claims 1 to 4, the outer walls of which at least partly made up of a supporting wall, an insulation layer applied on the outside and an outer one Cover are constructed, with a ventilation system for the interior is provided through the External wall has air ducts for the fresh and drainage air (according to patent application P 3o 39 Io7.2), characterized in that the air ducts (3o) are guided through the supporting wall (28). 6. Building according to claim 5, characterized in that the air ducts (3o) are molded into the supporting wall (28) are. 7. Building according to claim 6, characterized in that in the stone or concrete elements that make up the supporting wall (28) is formed, fitting sleeves are used for the mutual alignment of the molded air ducts (3o) are. 8. Thermally insulated building, in particular according to one of claims 1 to 7, the outer walls of which at least for Part of a supporting wall, an insulation layer applied on the outside and an outer cover are constructed, with a ventilation system being provided for the interior spaces, which is guided through the outer wall Has air ducts for the fresh and exhaust air (according to patent application 3o 39 Io7.2), thereby marked draws that the outer cover is designed as an outer wall, with the air ducts between outer- O wall and insulation layer are guided. 9. Thermally insulated building, in particular according to one of claims 1 to 8, the outer walls of which at least for Part of a supporting wall, an insulation layer applied on the outside and an outer cover are constructed, with a ventilation system for the interior is provided through the External wall has air ducts for the fresh and exhaust air, (according to patent application P 3o 39 Io7.2), characterized in that the air ducts for the exhaust air are connected to a heat pump on the outlet side connected storage devices. Io. Thermally insulated building, especially according to one of the Claims 1 to 9, the outer walls of which at least partially consist of a supporting wall, one on the outside of this Applied insulation layer and an outer cover are constructed, with a ventilation system for the Interior spaces are provided that have air ducts for the fresh and exhaust air through the outer wall, and with additional brine channels for the supply and discharge of a heat transfer fluid in the cover of the Insulation layer are provided (according to patent application P 3o 39 Io7.2), characterized in that the cover is designed as an outer wall made of stone or concrete elements (8, 9, Io), which are provided with reinforcements are to which the brine channels (19) are attached. 11. Thermally insulated building, in particular according to one of claims 1 to 9, the outer walls of which at least for Part of a supporting wall, an insulation layer applied on the outside and an outer cover are constructed, whereby a ventilation system is provided for the interior spaces through the outer wall. has led air ducts for the fresh and exhaust air, and with additional brine ducts for the supply and discharge of a heat transfer fluid are provided in the cover of the insulation layer (according to patent registration P 3o 39 Io7.2), characterized in that the cover is an external plaster on mineral Has base, in which a reinforcement is used, to which the brine channels are attached. 12. Building according to claim Io or 11, characterized in that that the reinforcement consists of expanded metal. 13. Thermally insulated building, in particular according to one of claims 1 to 9, the outer walls of which at least for Part of a supporting wall, an insulation layer applied on the outside and an outer cover are constructed, with a ventilation system being provided for the interior spaces, which is guided through the outer wall Has air ducts for the fresh and exhaust air, and additionally brine ducts for the supply and discharge a heat transfer fluid are provided in the cover of the insulation layer (according to patent application P 3o 39 Io7.2), characterized in that the cover The wall is designed as a metal facade, on the rear wall of which the brine ducts and / or the air ducts are attached are. 14. Building according to one of claims Io to 13, characterized characterized in that the outer wall (2, 25, 27) by vertically extending bolts (15, 16) made of concrete or Wood is divided, the supply and discharge lines (17, 18) for the brine channels (19) laid in the outer wall (as above). 15. Building according to claim 14, characterized in that the brine channels (19) guided in a spiral element-wise with the inflow outside and the outflow inside.